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Dec 21, 2024
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EL 202 - Electrical Circuits III
Credit Hours: 3
This course will provide an overview of circuit analysis techniques for AC circuits including the following topics:
- AC series, parallel, and series/parallel circuit analysis;
- phasors;
- Kirchhoff’s Law;
- network theorems;
- AC power, maximum power transfer, power factor, and power factor correction;
- resonance;
- polyphase systems:
- delta-wye connections, three-phase voltage/current/power, vector representation, balanced and unbalanced three-phase loads;
- magnetic circuits; transformers; and
- mesh and nodal analysis.
Course Outcomes
Upon completion of this course, the student will be able to:
- apply AC phasor/vector theory and advanced network theorems and circuit analysis tools to combinational series-parallel RLC circuits and determine the voltages, currents, impedance, phase angle, apparent power, true power, reactive power, and power factor improvement;
- calculate the circuital values for series, parallel, and series/parallel resonant circuits;
- correctly apply electrical subscripting, symbols and units to polyphase systems;
- apply AC theory to explain basic transformer operation and to determine the primary and secondary values of voltage, current, power, and impedance;
- employ a systematic and methodical approach to mathematically solving circuit problems; and
- identify and use appropriate technical literature for the research assignment.
Prerequisites: EL 158, MT 126
F (N)
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